Ghazaleh Haghiashtiani,Ed Habtour,Sung-Hyun Park et al.
Ghazaleh Haghiashtiani et al.
Soft robotics is an emerging field enabled by advances in the development of soft materials with properties commensurate to their biological counterparts, for the purpose of reproducing locomotion and other distinctive capabilities of activ...
EML webinar overview: Simulation-assisted discovery of membrane targeting nanomedicine [0.03%]
基于模拟的膜靶向纳米药物发现概述
Guijin Zou,Yue Liu,Huajian Gao
Guijin Zou
The COVID-19 pandemic has brought infectious diseases again to the forefront of global public health concerns. In this EML webinar (Gao, 2020), we discuss some recent work on simulation-assisted discovery of membrane targeting nanomedicine ...
Advanced approaches for quantitative characterization of thermal transport properties in soft materials using thin, conformable resistive sensors [0.03%]
基于薄柔电阻传感器软材料热运输性质的定量表征方法学进展
Kaitlyn E Crawford,Yinji Ma,Siddharth Krishnan et al.
Kaitlyn E Crawford et al.
Noninvasive methods for precise characterization of the thermal properties of soft biological tissues such as the skin can yield vital details about physiological health status including at critical intervals during recovery following skin ...
Ruiguo Yang,Joshua A Broussard,Kathleen J Green et al.
Ruiguo Yang et al.
Cell-cell adhesions maintain the mechanical integrity of multicellular tissues and have recently been found to act as mechanotransducers, translating mechanical cues into biochemical signals. Mechanotransduction studies have primarily focus...
Andrea Malandrino,Michael Mak,Roger D Kamm et al.
Andrea Malandrino et al.
The extracellular matrix (ECM) performs many critical functions, one of which is to provide structural and mechanical integrity, and many of the constituent proteins have clear mechanical roles. The composition and structural characteristic...
Quantitative Biomechanics of Healthy and Diseased Human Red Blood Cells using Dielectrophoresis in a Microfluidic System [0.03%]
使用微流控系统中的介电泳定量分析健康和疾病状态下的人类红细胞的生物力学特性
E Du,Ming Dao,Subra Suresh
E Du
We present an experimental method to quantitatively characterize the mechanical properties of a large number of biological cells by introducing controlled deformation through dielectrophoresis in a microfluidic device. We demonstrate the ca...